CN112862341A - Project cost management system - Google Patents

Abstract

The application discloses project cost management system relates to project management technical field, has solved lack among the prior art and has integrated the management, is unfavorable for project management's cost control's technical problem. The project cost management system comprises a system function module, a project accounting module, an object management module, a work management module and an analysis report module which are connected with each other; and the project accounting module, the object management module, the work management module and the analysis report module share data in real time. The project cost management system solves the problem of splitting states of all parties of the current project, enables all parties of the project to be linked and fused, and controls the cost of project management.

Description

Project cost management system

Technical Field

The application relates to the technical field of project management, in particular to a project cost management system.

Background

Cost management fully mobilizes and organizes the staff of enterprise, under the prerequisite of guaranteeing product quality, carries out scientific and reasonable management to each link of enterprise's production and operation process, strives to obtain the biggest production result with minimum production consumes.

At present, most construction units have a plurality of management platforms, such as materials, cost, safety, machinery and the like, for a project manager, a plurality of management platforms relate to a single item and a plurality of items, integrated management is lacked, a unified management platform is lacked, fragmentation is presented at the current situation, each party of the project is in a relatively split state, mutual linkage and fusion are lacked, and cost control on project management is very unfavorable.

Disclosure of Invention

The embodiment of the application provides a project cost management system, and solves the technical problems that integrated management is lacked and project management cost control is not facilitated in the prior art.

The embodiment of the invention provides a project cost management system, which comprises a system function module, an engineering accounting module, an object management module, a work management module and an analysis report module which are connected with each other;

the engineering accounting module, the object management module, the work management module and the analysis report module share data in real time.

In one possible implementation manner, the engineering accounting module comprises a contract list module, a construction accounting module, a stock preparation planning module, a task list module and a claim change module;

the contract list module is used for editing a contract list and decomposing the contract list, and the contract list modification comprises the change of quantity, specification and model, project characteristics and unit price;

the construction accounting module is used for CAD drawing measurement, master material identity information adding, data tracing and checking, automatic summarization and factory ordering, and the master material identity information comprises names, specifications, models, quantity, positions and other remarks;

the material preparation plan module is used for making a material preparation plan;

the task list module is used for compiling a task list, supplementing tasks and revising data;

the change claim module is used for registering and recording the change project and collecting data.

In a possible implementation manner, the engineering accounting module further comprises a temporary task module, the temporary task module is used for compiling a temporary task list and ordering, and the temporary task list comprises two or three materials, a turnover material and a low-value consumable.

In one possible implementation manner, the physical machine management module comprises a physical machine planning module, a virtual material warehouse module, a material warehousing module, a material ex-warehouse module, a material using module and a material dynamic module;

the physical machine planning module is used for acquiring supply information and a delivery plan;

the virtual material library module is used for clearly planning total amount, station division point material limit amount and unit price information;

the material warehousing module is used for scanning materials for code warehousing, and automatically checking and early warning the inventory;

the material delivery module is used for delivering the limited number of the job;

the material using module is used for feeding back actual material consumption and difference, correcting data information and registering residual waste quantity during site location construction;

the material dynamic module is used for recording and feeding back the change of the material.

In a possible implementation manner, the virtual material library module includes a plurality of sub virtual material library modules, and the sub virtual material library modules are respectively allocated to a plurality of operation teams.

In one possible implementation manner, the material dynamic module comprises a statistical analysis module, a machine use module, a goods arrival information reporting and prompting module and a material demand feedback module;

the statistical analysis module is used for automatically counting the comparison between the consumption of work points and the application quantity and forming the statistics of cost quantity difference/price difference;

the machine use module is used for engineering machine use plan management, entering registration and leaving sales;

the arrival information reporting and prompting module is used for generating an arrival detailed list;

the material demand feedback module is used for providing applications when the operation layer has material demands according to the field conditions.

In one possible implementation manner, the worker management module comprises a responsibility cost module, a cost dynamic module, a receiver settlement module, a worker checking and pricing module, a payment management module and an economic analysis module;

the responsibility cost module is used for managing the cost of different construction responsibility areas;

the cost dynamic module is used for calculating and displaying dynamic change of the cost;

the receiving settlement module is used for the receiving party to settle the homework team and the first and second supplies;

the checking and pricing module is used for checking the finished part and calculating the required payment;

the payment management module is used for managing payment processes and results;

the economic analysis module is used for analyzing the balance accounts.

In one possible implementation manner, the analysis reporting module comprises an engineering information module, a prompt early warning module and a reporting standing book module;

the engineering information module is used for reflecting the progress of a construction task;

the prompt early warning module is used for monitoring the material dynamic state and prompting and giving an alarm when the material dynamic state is abnormal;

the report form standing book module is used for creating a construction standing book, a material standing book and a cable contact standing book in the cabinet.

In one possible implementation manner, the system function module comprises a process management module, a permission management module, a data maintenance module, a centralized examination and approval module, a task supervision module and a target model module;

the process management module is used for managing application and approval processes;

the authority management module is used for setting the authority of each user using the project cost management system;

the data maintenance module is used for coding tasks and materials and managing a price base;

the task supervising module is used for supervising key tasks;

the objective model module is used to set a cost objective, a personnel investment objective, and a capital investment objective.

In one possible implementation, the system function module further includes a collaborative planning module, and the collaborative planning module is configured to enable a plurality of users to use the project cost management system simultaneously.

One or more technical solutions provided in the embodiments of the present invention have at least the following technical effects or advantages:

the embodiment of the invention provides a project cost management system, wherein a system function module, an engineering accounting module, an object management module, a work management module and an analysis report module of the project cost management system are connected with each other and share data in real time, so that the splitting state of each party of the current project is solved, each party of the project can be linked and fused, and the project cost management system is controlled by the project cost management cost.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments of the present invention or the prior art will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a project cost management system according to an embodiment of the present application;

fig. 2 is a schematic structural diagram of a system functional module according to an embodiment of the present disclosure;

fig. 3 is a schematic structural diagram of an engineering accounting module according to an embodiment of the present disclosure;

fig. 4 is a schematic structural diagram of an object management module according to an embodiment of the present application;

FIG. 5 is a schematic structural diagram of a management module according to an embodiment of the present disclosure;

fig. 6 is a schematic structural diagram of an analysis reporting module according to an embodiment of the present application;

fig. 7 is a schematic structural diagram of a material dynamic module according to an embodiment of the present application.

Reference numerals: 10-a system function module; 11-a process management module; 12-a rights management module; 13-a data maintenance module; 14-centralized approval module; 15-task supervising module; 16-a target model module; 17-a collaborative planning module; 20-engineering accounting module; 21-contract list module; 22-a construction accounting module; 23-stock preparation planning module; 24-a task list module; 25-temporary task module; 26-Change claims Module; 30-an object management module; 31-an object planning module; 32-a virtual stock module; 33-material warehousing module; 34-material delivery module; 35-a material using module; 36-a material dynamic module; 361-a statistical analysis module; 362-mechanical usage module; 363-a goods arrival information reporting and prompting module; 364-material demand feedback module; 40-a management module; 41-cost of responsibility module; 42-cost dynamic module; 43-receiver settlement module; 44-a check pricing module; 45-a payment management module; 46-an economic analysis module; 50-analysis report module; 51-engineering information module; 52-prompt early warning module; 53-statement standing book module; 54-assessment evaluation module; 55-an alternating current garden module; 56-leading Window Module.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

At present, most construction units have a plurality of management platforms, such as materials, cost, safety, machinery and the like, for a project manager, a plurality of management platforms relate to a single item and a plurality of items, integrated management is lacked, a unified management platform is lacked, fragmentation is presented at the current situation, each party of the project is in a relatively split state, mutual linkage and fusion are lacked, and cost control on project management is very unfavorable.

To solve the above technical problem, an embodiment of the present invention provides a project cost management system, whose architecture is shown in fig. 1, and the project cost management system includes a system function module 10, an engineering accounting module 20, an object management module 30, an engineering management module 40, and an analysis reporting module 50, which are connected to each other. And, the project accounting module 20, the object management module 30, the work management module 40 and the analysis report module 50 share data in real time.

The project cost management system can adopt a B/S mode, namely a browser/server mode, the whole program of the project cost management system is positioned on a server, and a browser of a computer or a mobile phone is adopted to access the server.

The project cost management system can also adopt a C/S mode, namely a client/server module, one part of programs of the project cost management system is positioned on a server, and the other part of programs is positioned on a client, so that the mode can rapidly process information. And because the system is a point-to-point based operating environment in the C/S mode, when a task makes a request, the load of the task can be evenly distributed among all possible servers. In this way, requests issued at the client can be processed in parallel by multiple servers, providing extremely fast response speed and higher transaction throughput for each request. And the materials in the C/S mode are distributed, and the client and the server have one-to-many relationship and running environment. The user can access the materials on the server and the local workstation and can enjoy the materials on other workstations, so that the material sharing is realized.

The system function module 10, the project accounting module 20, the object management module 30, the work management module 40 and the analysis report module 50 of the project cost management system are connected with each other and share data in real time, so that the problem of splitting states of all parties of the project is solved, all parties of the project can be linked and fused, and the project cost management system is controlled.

The architecture of the engineering accounting module 20 is shown in fig. 3, and specifically includes a contract list module 21, a construction accounting module 22, a stock planning module 23, a task list module 24, and a change claims module 26.

The contract list module 21 is used for editing the contract list and decomposing the contract list, wherein the contract list modification includes changes of quantity, specification and model, project characteristics and unit price. The user with the read-write authority of the contract list module 21 can increase the number of contracts in the contract list module 21, namely, the contract is uploaded or generated; reducing the number of contracts, namely deleting the contracts; the specification model number, project characteristics, and unit price of the uploaded or generated contract can be changed. After the user having the right to read the contract list module 21 operates the contract list module 21, other users having the right to use the contract list module 21 can also see the edited or decomposed contract list through the contract list module 21.

The construction accounting module 22 is used for CAD drawing, adding master material identity information, tracing and checking data, automatically summarizing and ordering in a factory, wherein the master material identity information comprises names, specifications, models, quantity, positions and other remarks. The user who has construction accounting module 22 read-write permission can carry out CAD drawing survey in construction accounting module 22, can add principal component identity information, makes things convenient for the cost accounting in later stage, and the user also can use construction accounting module 22 to order the mill after having added principal component identity information, and construction accounting module 22 can carry out the data according to principal component identity information and trace back, has guaranteed the quality of principal component, and then has guaranteed the quality of construction. The user with the read authority of the construction accounting module 22 can see the CAD after the drawing has been performed, the master material information that has been added, and whether to place an order to the factory.

The stock planning module 23 is used to make stock plans. The user of the project cost management system specifies a stock plan at stock planning module 23. Other users having access to stock plan module 23 can view the prepared stock plan and can also modify the specified stock plan.

The task list module 24 is used to compile task lists, supplement tasks, and revision data. A user having the read/write authority of the task list module 24 can create a task list, supplement tasks, and modify data, such as weekly construction tasks and post-supplement tasks, in the task list module 24. Other users having the right to read the task list module 24 can view the programmed task list, the supplementary tasks and the modified data in the task list module 24.

The change claims module 26 is used to change the registration of projects, and data collection. The user who has the read-write authority of the claim change module 26 can register and record the changed items in the claim change module 26 and collect data. The user having read authority to change the claim module 26 can see in the change claim module 26 that the entry has been registered and that the collection has been completed.

With continued reference to fig. 3, the engineering accounting module 20 further includes a temporary task module 25, where the temporary task module 25 is configured to compile a temporary task list and place an order, where the temporary task list includes two or three materials, a turnover material, and a low-value consumable item. The user having the read/write authority of the temporary task module 25 can create a temporary task list and place an order in the temporary task module 25. The user having the read authority of the provisional task module 25 can see the task list that has been prepared and placed in order in the provisional task module 25.

The structure of the material management module 30 is shown in fig. 4, and specifically includes a material planning module 31, a virtual material warehouse module 32, a material warehouse-in module 33, a material warehouse-out module 34, a material using module 35, and a material dynamic module 36.

The physical planning module 31 is used for acquiring supply information and arrival plans of the first and second objects. The object planning module 31 is connected with an existing platform with first and second supply information and a delivery plan, the first and second supply information and the delivery plan are obtained from the platform, and a user with the authority of the object planning module 31 can see the first and second supply information and the delivery plan.

The virtual material library module 32 is used for clearly planning total amount, station-specific point material limit amount and unit price information. The user having the read/write authority of the virtual material library module 32 can set the planned total amount, the material limit amount of the point of the division number, and the unit price information in the virtual material library module 32. The user having the read authority of the virtual material library module 32 can see the planned total amount, the material limit amount of the work point division number and the unit price information which are set and completed in the virtual material library 32.

The material warehousing module 33 is used for scanning materials for warehousing, and automatically checking and early warning the inventory. Specifically, the goods and materials warehousing module 33 can be connected with a code scanning device, two-dimensional codes or bar codes are arranged on the warehoused goods and materials, the code scanning device scans the warehoused goods and materials, and the code scanning device transmits the goods and materials information acquired by scanning the codes to the goods and materials warehousing module 33. The material warehousing module 33 records warehoused materials, can automatically count residual materials, and sends out an early warning when the materials are smaller than a preset value. The user with the authority of the material warehousing module 33 can receive the early warning information sent by the material warehousing module 33.

The material delivery module 34 is used for delivering the limited number of the job. Goods and materials warehouse-out module 34 also can be connected with the yard equipment of sweeping, sweeps yard equipment and sweeps the sign indicating number to the goods and materials of warehouse-out, sweeps yard equipment and will sweep the goods and materials information transmission to goods and materials warehouse-out module 34 that the sign indicating number obtained. The material delivery module 34 records the delivered materials, and transmits the material information to the material storage module 33, so that the material storage module 33 can know the material information delivered from the warehouse, and the material storage module 33 can automatically check the inventory conveniently.

The material using module 35 is used for feeding back actual material consumption and difference, correcting data information and registering residual waste quantity during site point location construction. The user having the read/write authority of the material using module 35 can feed back the actual material consumption and difference, correct data information, and register the remaining waste amount in the material using module 35. The user having the reading authority of the material using module 35 can see the actual material consumption and difference that have been fed back, the corrected data information, and the remaining amount of waste that has been registered in the material using module 35.

The material dynamic module 36 is used to record and feed back the change of the material.

Further, the virtual material library module 32 may include a plurality of sub-virtual material library modules, and the sub-virtual material library modules are respectively allocated to a plurality of job teams, so as to facilitate receiving and settlement management. Of course, a plurality of teams may share one virtual stock module 32.

As shown in fig. 7, the material dynamic module 36 includes a statistical analysis module 361, a machine usage module 362, a delivery information reporting and prompting module 363, and a material demand feedback module 364.

The statistical analysis module 361 is configured to automatically count the comparison between the consumption of work points and the application quantity, and form a cost difference/price difference statistic. The user with the authority of the statistical analysis module 361 can see the comparison between the point consumption and the application number and the cost difference/price difference in the statistical analysis module 361.

The machine usage module 362 is used for project machine usage plan management, entry registration, and departure sales. A user having authority of the machine use module 362 can manage a work machine use plan in the machine use module 362, and can register an entering machine on the work machine use module 362 and sell an departing work machine.

The goods arrival information reporting and prompting module 363 is used for generating the goods arrival detailed list. The user having the authority of the arrival information reporting and prompting module 363 can see the generated arrival detailed list in the arrival information reporting and prompting module 363.

The material demand feedback module 364 is used for applying when the operation layer has a material demand according to the field situation. When a user with the read-write permission of the material demand feedback module 364 has a material demand on site, the user can apply the material demand feedback module 364, so that subsequent material preparation is facilitated. A user with material demand feedback module 364 read permission can see the proposed application at material demand feedback module 364.

The structure of the worker management module 40 is shown in fig. 5, and specifically includes a responsibility cost module 41, a cost dynamic module 42, a receiver settlement module 43, a verifier pricing module 44, a payment management module 45, and an economic analysis module 46.

The responsibility cost module 41 is used for managing the cost of different construction responsibility areas. The responsible persons of different construction responsibility areas can perform cost management on the responsible area on the responsibility cost module 41.

The cost dynamic module 42 is used to calculate and display the dynamic change of the cost. A user with the authority of the cost dynamics module 42 can see the dynamically changing costs on the cost dynamics module 42.

The receiver settlement module 43 is used for the receiver to settle the homework team and the business team. The receiver person having the authority of the receiver settlement module 43 can settle the job team and the first and second supplies at the receiver settlement module 43.

The validation pricing module 44 is used to validate the finished part and calculate the required payment. The user having the authority of the verified pricing module 44 can verify at the verified pricing module 44 and calculate the required payment.

The payment management module 45 is used to manage the payment process and results.

The economic analysis module 46 is used to analyze the balance accounts. A user with the authority of the economic analysis module 46 can view the analysis of the balance book by the economic analysis module 36.

The structure of the analysis reporting module 50 is shown in fig. 6, and specifically includes an engineering information module 51, a prompt and early warning module 52, and a reporting standing book module 53.

The engineering information module 51 is used for reflecting the progress of the construction task, and a user with the authority of the engineering information module 51 can see the progress of the construction task.

The prompt early warning module 52 is used for monitoring the material dynamics and prompting an alarm when the material dynamics is abnormal. A user with the authority to prompt the pre-warning module 52 can receive the alarm information prompting the pre-warning module 52.

The report form account standing module 53 is used for creating a construction account standing, a material account standing and a cable contact account standing in the cabinet.

Continuing to refer to FIG. 6, the analytic reporting module 50 further includes a qualification evaluation module 54, a communication park module 55, and a leadership window module 56.

The architecture of the system function module 10 is shown in fig. 1, and specifically includes a process management module 11, a rights management module 12, a data maintenance module 13, a centralized examination and approval module 14, a task supervision module 15, and a target model module 16.

The process management module 11 is used for managing application and approval processes. The user having the authority of the process management module 11 can set the application and approval process.

The rights management module 12 is used to set the rights of each user using the project cost management system. The user having the authority of the authority management module 12 can set the authority of each user.

The data maintenance module 13 is used for encoding tasks and materials and managing price libraries. A user having the authority of the data maintenance module 13 can code tasks and materials in the data maintenance module 13 and can manage the price base.

The task supervising module 15 is used for supervising the key tasks. The user having the authority of the task supervising module 15 can supervise the key tasks, and the responsible persons of the supervised key tasks will receive the supervising information.

The goal model module 16 is used to set cost goals, personnel investment goals, and capital investment goals. A user with the authority of the goal module 16 is able to set cost goals, personnel investment goals, and capital investment goals in the goal model module 16.

With continued reference to FIG. 1, the system function module 10 further includes a collaborative planning module 17, the collaborative planning module 17 for enabling multiple users to simultaneously use the project cost management system. A plurality of users having the authority of the cooperation plan 17 can simultaneously use the project cost management system to realize mutual data sharing and work cooperation.

The modules described herein may be described in the general context of computer-executable instructions, such as program modules, being executed by a computer. Generally, program modules include routines, programs, objects, components, data structures, classes, etc. that perform particular tasks or implement particular abstract data types. The application may also be practiced in distributed computing environments where tasks are performed by remote processing devices that are linked through a communications network. In a distributed computing environment, program modules may be located in both local and remote computer storage media including memory storage devices.

The embodiments in the present specification are described in a progressive manner, and the same or similar parts among the embodiments may be referred to each other, and each embodiment focuses on the differences from the other embodiments.

The above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the present application; although the present application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications or substitutions do not depart from the spirit and scope of the present disclosure.

Claims (10)

1. A project cost management system is characterized by comprising a system function module (10), an engineering accounting module (20), an object management module (30), a worker management module (40) and an analysis report module (50) which are connected with each other;

the engineering accounting module (20), the object management module (30), the engineering management module (40) and the analysis report module (50) share data in real time.

2. The project cost management system of claim 1, wherein the project accounting module (20) comprises a contract inventory module (21), a construction accounting module (22), a stock planning module (23), a task inventory module (24), and a change claims module (26);

the contract list module (21) is used for editing a contract list and decomposing the contract list, wherein the contract list modification comprises the change of quantity, specification and model, project characteristics and unit price;

the construction accounting module (22) is used for CAD drawing measurement, master material identity information addition, data tracing and checking, automatic summarization and factory ordering, wherein the master material identity information comprises names, specifications, models, quantity, positions and other remarks;

the stock preparation plan module (23) is used for making a stock preparation plan;

the task list module (24) is used for compiling a task list, supplementing tasks and revising data;

the change claim module (26) is used for registering and recording the change project and collecting data.

3. The project cost management system according to claim 2, wherein the project accounting module (20) further comprises a temporary task module (25), the temporary task module (25) is used for compiling a temporary task list and placing an order, and the temporary task list comprises two or three materials, turnover materials and low-value consumables.

4. The project cost management system according to claim 1, wherein the physical machine management module (30) comprises a physical machine planning module (31), a virtual material warehouse module (32), a material warehousing module (33), a material ex-warehouse module (34), a material using module (35) and a material dynamic module (36);

the physical machine planning module (31) is used for acquiring supply information and a delivery plan;

the virtual material library module (32) is used for clearly planning total amount, point material limit amount of the division number and unit price information;

the material warehousing module (33) is used for scanning materials for code warehousing, and automatically checking and early warning inventory;

the material delivery module (34) is used for delivering the limited number of the work orders;

the material using module (35) is used for feeding back actual material consumption and difference, correcting data information and registering residual waste quantity during site location construction;

the material dynamic module (36) is used for recording and feeding back the change of the material.

5. The project cost management system of claim 4, wherein said virtual stock module (32) comprises a plurality of sub-virtual stock modules, said sub-virtual stock modules being respectively assigned to a plurality of teams of jobs.

6. The project cost management system according to claim 4 or 5, wherein said material dynamic module (36) comprises a statistical analysis module (361), a machine usage module (362), a goods arrival information reporting and prompting module (363), and a material demand feedback module (364);

the statistical analysis module (361) is used for automatically counting the comparison between the consumption of work points and the application quantity and forming the statistics of cost quantity difference/price difference;

the machine use module (362) is used for managing a project machine use plan, entering registration and leaving sales;

the goods arrival information reporting and prompting module (363) is used for generating detailed goods arrival lists;

the material demand feedback module (364) is used for applying when the operation layer has material demand according to the field condition.

7. The project cost management system of claim 1, wherein said worker management module (40) comprises a liability cost module (41), a cost dynamic module (42), a receiver settlement module (43), a verifier pricing module (44), a payment management module (45) and an economic analysis module (46);

the responsibility cost module (41) is used for managing the cost of different construction responsibility areas;

the cost dynamic module (42) is used for calculating and displaying dynamic change of the cost;

the receiver settlement module (43) is used for the receiver to settle the homework team and the first and second supplies;

the checking and pricing module (44) is used for checking the finished part and calculating the required payment;

the payment management module (45) is used for managing payment processes and results;

the economic analysis module (46) is used for analyzing a balance account.

8. The project cost management system according to claim 1, wherein the analysis reporting module (50) comprises a project information module (51), a prompt early warning module (52) and a reporting standing book module (53);

the engineering information module (51) is used for reflecting the progress of a construction task;

the prompt early warning module (52) is used for monitoring the material dynamic state and prompting and alarming when the material dynamic state is abnormal;

the report form standing book module (53) is used for creating a construction standing book, a material standing book and a cable contact standing book in the cabinet.

9. The project cost management system according to claim 1, wherein the system function module (10) comprises a process management module (11), a right management module (12), a data maintenance module (13), a centralized examination and approval module (14), a task supervision module (15) and a target model module (16);

the process management module (11) is used for managing application and approval processes;

the authority management module (12) is used for setting the authority of each user using the project cost management system;

the data maintenance module (13) is used for coding tasks and materials and managing a price base;

the task supervision module (15) is used for supervising key tasks;

the goal model module (16) is used to set a cost goal, a personnel investment goal, and a capital investment goal.

10. The project cost management system according to claim 1, wherein said system function module (10) further comprises a collaborative planning module (17), said collaborative planning module (17) for enabling a plurality of users to use said project cost management system simultaneously.

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